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/*
* Copyright (c) 2007 Mockito contributors
* This program is made available under the terms of the MIT License.
*/
package org.mockito.stubbing;
import org.mockito.Mockito;
import org.mockito.internal.progress.IOngoingStubbing;
/**
* Simply put: "When the x method is called then return y". E.g:
*
*
* when(mock.someMethod()).thenReturn(10);
*
* //you can use flexible argument matchers, e.g:
* when(mock.someMethod(anyString())).thenReturn(10);
*
* //setting exception to be thrown:
* when(mock.someMethod("some arg")).thenThrow(new RuntimeException());
*
* //you can set different behavior for consecutive method calls.
* //Last stubbing (e.g: thenReturn("foo")) determines the behavior of further consecutive calls.
* when(mock.someMethod("some arg"))
* .thenThrow(new RuntimeException())
* .thenReturn("foo");
*
* //There is a shorter way of consecutive stubbing:
* when(mock.someMethod()).thenReturn(1,2,3);
* when(mock.otherMethod()).thenThrow(exc1, exc2);
*
*
* See examples in javadoc for {@link Mockito#when}
*/
public interface OngoingStubbing extends IOngoingStubbing {
/**
* Sets a return value to be returned when the method is called. E.g:
*
* when(mock.someMethod()).thenReturn(10);
*
*
* See examples in javadoc for {@link Mockito#when}
*
* @param value return value
*
* @return iOngoingStubbing object that allows stubbing consecutive calls
*/
OngoingStubbing thenReturn(T value);
/**
* Sets consecutive return values to be returned when the method is called. E.g:
*
* when(mock.someMethod()).thenReturn(1, 2, 3);
*
*
* Last return value in the sequence (in example: 3) determines the behavior of further consecutive calls.
*
* See examples in javadoc for {@link Mockito#when}
*
* @param value first return value
* @param values next return values
*
* @return iOngoingStubbing object that allows stubbing consecutive calls
*/
OngoingStubbing thenReturn(T value, T... values);
/**
* Sets Throwable objects to be thrown when the method is called. E.g:
*
* when(mock.someMethod()).thenThrow(new RuntimeException());
*
*
* If throwables contain a checked exception then it has to
* match one of the checked exceptions of method signature.
*
* You can specify throwables to be thrown for consecutive calls.
* In that case the last throwable determines the behavior of further consecutive calls.
*
* if throwable is null then exception will be thrown.
*
* See examples in javadoc for {@link Mockito#when}
*
* @param throwables to be thrown on method invocation
*
* @return iOngoingStubbing object that allows stubbing consecutive calls
*/
OngoingStubbing thenThrow(Throwable... throwables);
/**
* Sets Throwable classes to be thrown when the method is called. E.g:
*
* when(mock.someMethod()).thenThrow(RuntimeException.class);
*
*
*
* Each throwable class will be instantiated for each method invocation.
*
* If throwableClasses contain a checked exception then it has to
* match one of the checked exceptions of method signature.
*
* You can specify throwableClasses to be thrown for consecutive calls.
* In that case the last throwable determines the behavior of further consecutive calls.
*
* if throwable is null then exception will be thrown.
*
* See examples in javadoc for {@link Mockito#when}
*
* @param throwableClasses to be thrown on method invocation
*
* @return iOngoingStubbing object that allows stubbing consecutive calls
* @since 1.9.0
*/
OngoingStubbing thenThrow(Class extends Throwable>... throwableClasses);
/**
* Sets the real implementation to be called when the method is called on a mock object.
*
* As usual you are going to read the partial mock warning:
* Object oriented programming is more less tackling complexity by dividing the complexity into separate, specific, SRPy objects.
* How does partial mock fit into this paradigm? Well, it just doesn't...
* Partial mock usually means that the complexity has been moved to a different method on the same object.
* In most cases, this is not the way you want to design your application.
*
* However, there are rare cases when partial mocks come handy:
* dealing with code you cannot change easily (3rd party interfaces, interim refactoring of legacy code etc.)
* However, I wouldn't use partial mocks for new, test-driven & well-designed code.
*
* // someMethod() must be safe (e.g. doesn't throw, doesn't have dependencies to the object state, etc.)
* // if it isn't safe then you will have trouble stubbing it using this api. Use Mockito.doCallRealMethod() instead.
* when(mock.someMethod()).thenCallRealMethod();
*
* // calls real method:
* mock.someMethod();
*
*
* See also javadoc {@link Mockito#spy(Object)} to find out more about partial mocks.
* Mockito.spy() is a recommended way of creating partial mocks.
* The reason is it guarantees real methods are called against correctly constructed object because you're responsible for constructing the object passed to spy() method.
*
* See examples in javadoc for {@link Mockito#when}
*
* @return iOngoingStubbing object that allows stubbing consecutive calls
*/
OngoingStubbing thenCallRealMethod();
/**
* Sets a generic Answer for the method. E.g:
*
* when(mock.someMethod(10)).thenAnswer(new Answer<Integer>() {
* public Integer answer(InvocationOnMock invocation) throws Throwable {
* return (Integer) invocation.getArguments()[0];
* }
* }
*
*
* @param answer the custom answer to execute.
*
* @return iOngoingStubbing object that allows stubbing consecutive calls
*/
OngoingStubbing thenAnswer(Answer> answer);
/**
* Sets a generic Answer for the method.
*
* This method is an alias of {@link #thenAnswer(Answer)}. This alias allows
* more readable tests on occasion, for example:
*
* //using 'then' alias:
* when(mock.foo()).then(returnCoolValue());
*
* //versus good old 'thenAnswer:
* when(mock.foo()).thenAnswer(byReturningCoolValue());
*
*
* @param answer the custom answer to execute.
* @return iOngoingStubbing object that allows stubbing consecutive calls
*
* @see #thenAnswer(Answer)
* @since 1.9.0
*/
OngoingStubbing then(Answer> answer);
/**
* Returns the mock that was used for this stub.
*
* It allows to create a stub in one line of code.
* This can be helpful to keep test code clean.
* For example, some boring stub can be created & stubbed at field initialization in a test:
*
* public class CarTest {
* Car boringStubbedCar = when(mock(Car.class).shiftGear()).thenThrow(EngineNotStarted.class).getMock();
*
* @Test public void should... {}
*
*
* @param The mock type given by the variable type.
* @return Mock used in this ongoing stubbing.
* @since 1.9.0
*/
M getMock();
}